Jane Wang

1.6k total citations
59 papers, 900 citations indexed

About

Jane Wang is a scholar working on Biomedical Engineering, Biomaterials and Molecular Biology. According to data from OpenAlex, Jane Wang has authored 59 papers receiving a total of 900 indexed citations (citations by other indexed papers that have themselves been cited), including 23 papers in Biomedical Engineering, 12 papers in Biomaterials and 9 papers in Molecular Biology. Recurrent topics in Jane Wang's work include 3D Printing in Biomedical Research (11 papers), Bone Tissue Engineering Materials (8 papers) and biodegradable polymer synthesis and properties (6 papers). Jane Wang is often cited by papers focused on 3D Printing in Biomedical Research (11 papers), Bone Tissue Engineering Materials (8 papers) and biodegradable polymer synthesis and properties (6 papers). Jane Wang collaborates with scholars based in Taiwan, United States and Belgium. Jane Wang's co-authors include Yi‐Kong Hsieh, Yunching Chen, Dehui Wan, Yun‐Chieh Sung, Tsai‐Te Lu, Chih-Chun Chang, Yih‐Lin Cheng, TsingHai Wang, Christopher J. Bettinger and Róbert Langer and has published in prestigious journals such as Advanced Functional Materials, Analytical Chemistry and Macromolecules.

In The Last Decade

Jane Wang

57 papers receiving 885 citations

Peers — A (Enhanced Table)

Peers by citation overlap · career bar shows stage (early→late) cites · hero ref

Name h Career Trend Papers Cites
Jane Wang Taiwan 16 408 219 172 112 100 59 900
Weizhe Xu China 13 458 1.1× 130 0.6× 231 1.3× 62 0.6× 192 1.9× 36 1.1k
Lina Dong China 18 394 1.0× 161 0.7× 183 1.1× 65 0.6× 32 0.3× 44 882
Yugang Wang China 20 617 1.5× 241 1.1× 496 2.9× 120 1.1× 39 0.4× 36 1.4k
Doreen Chan United States 16 590 1.4× 473 2.2× 290 1.7× 58 0.5× 30 0.3× 23 1.7k
Tianshu Shi China 17 315 0.8× 68 0.3× 509 3.0× 112 1.0× 158 1.6× 34 1.2k
Riki Toita Japan 22 367 0.9× 204 0.9× 680 4.0× 119 1.1× 17 0.2× 73 1.3k
Jinbing Wang China 17 354 0.9× 123 0.6× 175 1.0× 28 0.3× 32 0.3× 45 1.2k
Yasuyuki Sakai Japan 20 999 2.4× 180 0.8× 273 1.6× 54 0.5× 69 0.7× 74 1.6k
Dongwei Wu China 16 413 1.0× 222 1.0× 77 0.4× 50 0.4× 145 1.4× 47 821
Mohammad Hossein Ghanian Iran 18 326 0.8× 250 1.1× 308 1.8× 33 0.3× 23 0.2× 32 949

Countries citing papers authored by Jane Wang

Since Specialization
Citations

This map shows the geographic impact of Jane Wang's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Jane Wang with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Jane Wang more than expected).

Fields of papers citing papers by Jane Wang

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Jane Wang. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Jane Wang. The network helps show where Jane Wang may publish in the future.

Co-authorship network of co-authors of Jane Wang

This figure shows the co-authorship network connecting the top 25 collaborators of Jane Wang. A scholar is included among the top collaborators of Jane Wang based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with Jane Wang. Jane Wang is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

20 of 20 papers shown
1.
Chang, Ting-Wei, Yicheng Lai, Chun‐Jen Su, et al.. (2025). Accessing Frank–Kasper Phases via Blending of Architecturally Distinct and Sustainable Sugar-Based Block Co-Oligomers. Macromolecules. 58(16). 8686–8697. 1 indexed citations
2.
Ferriss, Bridget E., et al.. (2023). A labeled data set of underwater images of fish and crab species from five mesohabitats in Puget Sound WA USA. Scientific Data. 10(1). 799–799. 1 indexed citations
3.
Hsu, Fu‐Fei, Hsi‐Chien Huang, Yun‐Chieh Sung, et al.. (2023). A Chemoimmunotherapy Nanogel Enables Efficient Delivery of Interleukin‐2 and Induction of Immunogenic Cell Death for Effective Cancer Therapy. Advanced Functional Materials. 34(1). 9 indexed citations
4.
5.
Chen, Yi‐Ting, et al.. (2023). Development of hybrid scaffolds with biodegradable polymer composites and bioactive hydrogels for bone tissue engineering. Biomaterials Advances. 153. 213562–213562. 21 indexed citations
6.
Cheng, Hui‐Teng, Hsi‐Chien Huang, Tsung‐Ying Lee, et al.. (2022). Delivery of sorafenib by myofibroblast-targeted nanoparticles for the treatment of renal fibrosis. Journal of Controlled Release. 346. 169–179. 22 indexed citations
7.
Wang, Jane, et al.. (2022). Cysteine-rich protein 2 deficiency attenuates angiotensin II-induced abdominal aortic aneurysm formation in mice. Journal of Biomedical Science. 29(1). 25–25. 9 indexed citations
8.
Huang, Hsi‐Chien, Tiffaney Hsia, Chi‐Shiun Chiang, et al.. (2022). CXCR4-targeted nitric oxide nanoparticles deliver PD-L1 siRNA for immunotherapy against glioblastoma. Journal of Controlled Release. 352. 920–930. 38 indexed citations
9.
Huang, Hsi‐Chien, Yun‐Chieh Sung, Chung‐Pin Li, et al.. (2021). Reversal of pancreatic desmoplasia by a tumour stroma-targeted nitric oxide nanogel overcomes TRAIL resistance in pancreatic tumours. Gut. 71(9). 1843–1855. 39 indexed citations
10.
Wang, Jane, et al.. (2021). A novel engineered vascular construct of stem cell-laden 3D-printed PGSA scaffold enhances tissue revascularization. Biofabrication. 13(4). 45004–45004. 12 indexed citations
11.
Chen, Yi‐Ting, Yi‐Kong Hsieh, Shu-Huei Shen, et al.. (2021). Dual-functional antibiofilm polymer composite for biodegradable medical devices. Materials Science and Engineering C. 123. 111985–111985. 9 indexed citations
12.
Hsieh, Yi‐Kong, et al.. (2020). Design of photocurable, biodegradable scaffolds for liver lobule regeneration via digital light process-additive manufacturing. Biofabrication. 12(3). 35024–35024. 32 indexed citations
13.
Wang, Fu‐Sheng, et al.. (2017). Highly Stretchable Free-Standing Poly(acrylic acid)-block-poly(vinyl alcohol) Films Obtained from Cobalt-Mediated Radical Polymerization. Macromolecules. 50(16). 6054–6063. 14 indexed citations
14.
15.
Hsieh, Yi‐Kong, et al.. (2017). Direct Micromachining of Microfluidic Channels on Biodegradable Materials Using Laser Ablation. Polymers. 9(7). 242–242. 54 indexed citations
16.
Wang, TsingHai, et al.. (2016). Size effect of calcium-humic acid non-rigid complexes on the fouling behaviors in nanofiltration: An LA-ICP-MS study. Colloids and Surfaces A Physicochemical and Engineering Aspects. 513. 335–347. 11 indexed citations
17.
Feng, Jiaying, Danyang Gong, Xudong Fu, et al.. (2015). M1 of Murine Gamma-Herpesvirus 68 Induces Endoplasmic Reticulum Chaperone Production. Scientific Reports. 5(1). 17228–17228. 4 indexed citations
18.
Wang, Jane, et al.. (2013). Predicting Fruit Fly's Sensing Rate From Insect Flight Simulations. Bulletin of the American Physical Society. 1 indexed citations
19.
Wang, Jane, Christopher J. Bettinger, Róbert Langer, & Jeffrey T. Borenstein. (2010). Biodegradable microfluidic scaffolds for tissue engineering from amino alcohol-based poly(ester amide) elastomers. Organogenesis. 6(4). 212–216. 48 indexed citations
20.
Bergou, Attila, Leif Ristroph, John Guckenheimer, Itai Cohen, & Jane Wang. (2009). Fruit flies modulate passive wing pitching to induce in-flight turns. Bulletin of the American Physical Society. 62. 1 indexed citations

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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